An ε‑Lattice Hypothesis for the Cosmic Baryon Asymmetry

The observed Universe contains far more matter than antimatter, commonly summarized by the baryon-to-photon ratio ηB ~ 6×10⁻¹⁰. This preprint develops a working hypothesis organized by an “ε‑lattice, ” where a single small parameter ε ≡ √ (m_μ/m_τ) ≈ 0. 24385 supports approximate integer‑power relations q ≈ C εⁿ with order‑one coefficients. A central empirical claim is a “flavor determinant bridge” for the conserved baryon yield YB ≡ nB/s at electroweak scales: YB ≈ KB · Dd (μ), with Dd (μ) ≡ (yd yₛ yb) /yₜ³ and KB = O (1). This relation is presented as a hypothesis plus falsifiable test program, supported by reproducible calculations, null tests, and structured monomial scans intended to constrain (or refute) spurion choices. New in v0. 45 This version advances the program from an empirical bridge to a concrete mechanism class: Winding‑Enhanced Determinant‑Weighted Spontaneous Baryogenesis (WE‑DWSB): a CP‑odd rolling background supplies the sign of the asymmetry, while the CP‑even determinant sets the magnitude. Lattice‑anchored sphaleron tracking diagnostics and a dynamical efficiency factor κdyn, producing a timing/turn‑on constraint for electroweak‑epoch bias generation. ε‑valuation lattice extensions including charged leptons and a modular‑nome interpretation consistent with a single complex parameter τ = τ₁ + iτ₂ (|q| ≡ e^-2π τ₂ ≈ ε). This deposit is a hypothesis + test program (not a validated baryogenesis theory). Reproducibility Unzip the release bundle and run: python code/reproduceᵣesults. py This regenerates the headline ε‑lattice numbers, bridge checks, scans, plots, and a runlog. What’s inside paper/manuscript. pdf and paper/manuscript. md code/reproduceᵣesults. py (Python) + data/inputs. json runlog + figures (generated) CITATION. cff and license files